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Can Enchanting Green-Colored Sand reverse climate change?
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Can Enchanting Green-Colored Sand reverse climate change?

Bonita Cheshier / Alamy Stock Photo

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Bonita Cheshier / Alamy Stock Photo

Bonita Cheshier / Alamy Stock Photo

When the Paris Agreement was inked in 2015, 195 nations (including the United States) committed to curb global warming to a maximum of 1.5-2º Celsius higher than pre-industrial levels. It’s Uphill battle to get every nation to fulfill its role, and even if they pull through we’ll still face major environmental consequences, like a decline in most of the world’s coral reefs and lower crop yields. We can still avoid the worst disasters if we stick to this goal.

So all hands are on deck to reduce carbon emissions and strip the atmosphere of its excess greenhouse gases—and that means no solution is being ignored. One emerging method of carbon removal that’s especially gaining interest is inspired by Earth’s green beaches. That’s not an eco-friendly euphemism—we’re talking about literal green beaches.

More specifically, we’re talking about harnessing the carbon-capturing power of green-colored olivine crystals. Olivine is one the most widely used minerals on Earth. It absorbs carbon dioxide through a chemical reaction similar to the rusting of iron metals—except that instead of iron + water + oxygen = rust, the reaction goes olivine + carbon dioxide + water = silicate + calcium carbonate + magnesium ions. Olivine is a natural air purifier. It takes carbon dioxide from the air and stores it in harmless products. These products can form coral reefs.

Over a trillion tons olivine is available, largely in Earth’s mantle. It is often brought to the surface by volcanic eruptions, which can form green crystals that can be used to create natural green beaches. There are actually four such beaches around the world: Guam, Ecuador, Guam and Norway.

<div class="inline-image__credit">Ashley Balzer Vigil and Leyla Gokcek</div>

Ashley Balzer Vigil, Leyla Gokcek

In these locations, olivine is helping counter climate change—albeit slowly, on geological timescales. Scientists believe that we might be able to dramatically scale this natural process, called enhanced mineral weathering. Project Vesta, a non-profit organization, aims to prove this. They plan to deploy olivine in the waters of one Northern Caribbean beach and measure how efficiently the olivine captures the carbon.

ResearchThis method works best when olivine particles stay in motion. The natural wave action along the coast can churn olivine sand and grind the material into smaller pieces, which can maximize the amount of carbon dioxide removed. Preliminary studiesThis method could make a significant impact on carbon emissions.

“According to our analysis, we could remove a billion tons of carbon dioxide using less than 0.25 percent of the world’s coastal waters,” Project Vesta CEO Tom Green told The Daily Beast. “That would be an enormous contribution toward our climate goals—far larger than any other carbon dioxide removal solution currently available.”

The benefits wouldn’t stop there. Enhanced weathering in coastal waters can also be beneficial. reduce ocean acidification. The ocean has been absorbing most heat trapped in greenhouse gases. This has helped to reduce it by about 93% over the last 50 year. The ocean absorbs carbon dioxide and becomes more acidic. This can cause coral reefs to die and make shells or skeletons less possible. These effects are felt throughout the ecosystems of these organisms.

<div class="inline-image__caption"><p>Olivine found in New Zealand. </p></div> <div class="inline-image__credit">Education Images/Universal Images Group via Getty Images</div>

New Zealand finds Olivine

Education Images/Universal Images Group via Getty Images

If Project Vesta collects data showing that enhanced weathering helps deacidify the ocean, then scaling up the process could protect entire species of marine animals (including the fish and shellfish that sustain so much of the world’s food supply) and preserve coral reefs that Stormbreakers to protect the coastline infrastructureAll while countering human carbon emission that is causing harm to terrestrial environments.

Project Vesta’s calculations propose collecting a billion tons of naturally made olivine sand every year, and distributing it over about 28,000 miles of coastline. The National Academies of Science, Engineering, and MedicineThis process could be scaled up to take in more than 1,000,000 people, according to estimates. gigatonEach year, the amount of carbon dioxide.

But decades of research and theoretical models don’t sway people into investing time and money into these types of projects—results do. Hence the reason so many people are watching Project Vesta’s trial with keen interest.

“Moving from theories on paper to real world experiments is a key part of the puzzle, offering the opportunity to assess how well the method truly works,” Rosalind Rickaby, a professor of biogeochemistry at Oxford University, told The Daily Beast. “Putting it into practice is so important because no matter how the results come out, we’ll have narrowed the pathway forward by giving enhanced weathering a scientifically demonstrated green or red light.”

How to Armour Our Dying Oceans Against Climate Change

There are many ways that you can enhance weathering. Rickaby’s research involves assessing enhanced weathering on different terrains as part a consortium funded in part by the UK Research and InnovationThis method is used to assess the security of carbon dioxide storage. It also addresses potential side effects of the ions released during the process. Early resultsThe consortium’s findings are encouraging. They even suggest that the ions could be used to replenish ion-depleted areas in the ocean and in soil, improving plant and algal growth. Project Vesta also claims that the process appears to have been safe for the environment based upon preliminary toxicology data.

Enhanced weathering can be one of many. Carbon capturing methods currently in development—all of which will still be worth pursuing regardless of Project Vesta’s results. “We will likely need a cocktail of approaches to safely engineer our way out of the climate crisis,” Rickaby said. “Using any one of them on a global scale will probably have negative side effects, so deploying several methods at moderate levels seems to be a safer approach.”

We don’t have the time or resources to try every solution given the current state of our planet. We have the best chance of healing the Earth by pursuing multiple carbon removal technologies.

The Daily Beast has more information.

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